Neuroscienze e dipendenze - Dipartimento per le politiche antidroga
Neuroscienze e dipendenze - Dipartimento per le politiche antidroga
Neuroscienze e dipendenze - Dipartimento per le politiche antidroga
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IL CERVELLO DELL’ADOLESCENTE - 61<br />
32. Giedd IN, Blumenthal J, Jeffries NO, Castellanos FX, Liu H, Zijdenbos A, et al. Brain development during childhood and ado<strong>le</strong>scence: A<br />
longitudinal MRI study. Nature Neuroscience 1999;2:861-863.<br />
33. GieddJN, Snell JW, Lange N, Rajapakse JC, Casey BJ, Kozuch Pl., et al. Quantitative magnetic resonance imaging of human brain development:<br />
Ages 4-18. Cerebral Cortex 1996;6:551-560. [PubMed: 8670681J<br />
34. Gogtay N, Giedd IN, Lusk L, Hayashi KM, Greenstein D, Vaituzis AC, et al. Dynamic mapping of human cortical development during childhood<br />
through early adulthood. Proceedings of the National Academy of Sciences of the United States of America 2004; 10 1:8174-8179.<br />
[PubMed: 15148381 J Graber, JA.; Brooks-Gunn, J. Puberty. In: B<strong>le</strong>chman, EA.; Brownell, KD., editors. Behavioral medicine and women a<br />
comprehensive handbook. New York, NY: Guilford Press; 1998. p. 51-58.<br />
35. Hare TA, Voss HU, Glover GH, Casey BJ. The ado<strong>le</strong>scent brain and potential risk for anxiety and depression. 2007aSubmitted for publication.<br />
36. Hare TA, Voss HU, Glover GH, Casey BJ. Competition between prefrontal and subcortical limbic systems underlie emotional reactivity during<br />
ado<strong>le</strong>scence. 2007bSubmitted for publication Hamishfeger, KK.; Bjorkland, F. The ontogeny of inhibition mechanisms: A renewed approach<br />
to cognitive development. In: Howe, ML.; Pasnek, R., editors. Emerging themes in cognitive development. 1. New York: Springer-<br />
Verlag; 1993. p. 28-49.<br />
37. Hikosaka K, Watanabe M. Delay activity of orbital and lateral prefrontal neurons of the monkey varying with different rewards. Cerebral<br />
Cortex 2000; 10:263-271. [PubMed: 10731221 J<br />
38. Huttenlocher PR. Synaptic density in human frontal cortex-Developmental changes and effects of aging. Brain Research 1979;163:195-<br />
205. [PubMed: 427544J<br />
39. Hyman SE, Ma<strong>le</strong>nka RC. Addiction and the brain: The neurobiology of compulsion and its <strong>per</strong>sistence. Nature Reviews Neuroscience<br />
2001;2:695-703.<br />
40. Jernigan TL, Zisook S, Heaton RK, Moranvil<strong>le</strong> JT, Hesselink JR, BraffDL. Magnetic resonance imaging abnormalities in <strong>le</strong>nticular nuc<strong>le</strong>i and<br />
cerebral cortex in schizophrenia. Archives of General Psychiatry 1991 ;48:811-823 .<br />
41. Keating DP, Bobbitt BL. Individual and developmental differences in cognitive processing components of mental ability. Child Development<br />
1978;49: 155-167.<br />
42. Kel<strong>le</strong>y AE, Schochet T, Landry C. Annals of the New York Academy of Sciences 2004; 1021:27-32. [PubMed: 15251871 J<br />
43. Knutson B, Adams CM, Fong GW, Hommer D. Anticipation of increasing monetary reward se<strong>le</strong>ctively recruits nuc<strong>le</strong>us accumbens. Journal<br />
of Neuroscience 2001;21:RC159. [PubMed: 11459880J Kuhnen CM, Knutson B. The neural basis offinancial risk taking. Neuron<br />
2005;47:763-770. [PubMed: 16129404J<br />
44. Laviola G, Adriani W, Terranova ML, Gerra G. Psychobiological risk factors for vulnerability to psycho stimulants in human ado<strong>le</strong>scents and<br />
animal models. Neuroscience and Biobehavioral Reviews 1999;23:993-1010. [PubMed: 10580313J<br />
45. Laviola G, Macri S, Mor<strong>le</strong>y-F<strong>le</strong>tcher S, Adriani W. Abstract risk-taking behavior in ado<strong>le</strong>scent mice: Psychobiological determinants and early<br />
epigenetic influence. Neuroscience and Biobehavioral Reviews 2003;27:19-31. [PubMed: 12732220J<br />
46. Liston C, Watts R, Tottenham N, Davidson MC, Niogi S, Ulug AM, et al. Frontostriatal microstructure modulates efficient recruitment of cognitive<br />
control. Cerebral Cortex 2005; 16:553-560. [PubMed: 16033925J<br />
47. Luna B, Sweeney JA. The emergence of collaborative brain function: FMRI studies of the development of response inhibition. Annals of<br />
the New York Academy of Sciences 2004; 1 021 :296-309. [PubMed: 15251900J<br />
48. Luna B, Thulborn KR, Munoz DP, Merriam EP, Garver KE, Minshew NJ, et al. Maturation of widely distributed brain function sub serves cognitive<br />
development. Neuroimage 2001;13:786-793. [PubMed: 11304075J<br />
49. Matthews SC, et al. Se<strong>le</strong>ctive activation of the nuc<strong>le</strong>us accumbens during risk-taking decision making. Neuroreport 2004;15:2123-2127.<br />
[PubMed: 15486494J<br />
50. May JC, Delgado MR, Dahl RE, Stenger VA, Ryan ND, Fiez JA, et al. Event-related functional magnetic resonance imaging of reward-related<br />
brain circuitry in children and ado<strong>le</strong>scents. Biological Psychiatry 2004;55:359-366. [PubMed: 14960288J<br />
51. McClure SM, Laibson DI, Loewenstein G, Cohen JD. Separate neural systems value immediate monetary rewards. Science 2004;306:503-<br />
507. [PubMed: 15486304J<br />
52. Mil<strong>le</strong>r EK, Cohen JD. An integrative theory of prefrontal cortex function. Annual Review of Neuroscience 2001 ;24: 167-202.<br />
53. Mischel W, Shoda Y, Rodrignez MI. Delay of gratification in children. Science 1989;244:933-938. [PubMed: 2658056J<br />
54. Monk CS, McClure EB, Nelson EE, Zarahn E, Bilder RM, Leibenluft E, et al. Ado<strong>le</strong>scent immaturity in attention-related brain engagement<br />
to emotional facial expressions. Neuroimage 2003;20:420-428. [PubMed: 14527602J<br />
55. Montague PR, Berns GS. Neural economics and the biological substrates of valuation. Neuron 2002;36:265-284. [PubMed: 12383781J<br />
56. Moses P, Roe K, Buxton RB, Wong EC, Frank LR, Sti<strong>le</strong>s J. Functional MRI of global and local processing in children. Neuroimage<br />
2002;16:415-424. [PubMed: 12030826J<br />
57. Munakata Y, Yerys BE. All together now: When dissociations between know<strong>le</strong>dge and action disappear. Pscychological Science<br />
2001;12:335-337.<br />
58. Nagy Z, Westerberg H, Klingberg T. Maturation of white matter is associated with the development of cognitive functions during childhood.<br />
Journal of Cognitive Neuroscience 2004; 16: 1227-1233. [PubMed: 15453975J<br />
59. O’Doherty J, Kringelbach ML, Rolls ET, Hornak J, Andrews C. Abstract reward and punishment representations in the human orb ito frontal<br />
cortex. Nature Neurosci 2001;4:95-102. [PubMed: 11135651J<br />
60. O’Doherty JP. Reward representations and reward-related <strong>le</strong>arning in the human brain: Insights from neuroimaging. Current Opinions in<br />
Neurobiology 2004;14:769-776.<br />
61. Pascual-Leone JA. A mathematical model for transition in Piaget’s developmental stages. Acta Psychologica 1970;32:301-345 .<br />
62. Pecina S, Cagniard B, Berridge KC, Aldridge JW, Zhuang X. Hy<strong>per</strong>dopaminergic mutant mice have higher “wanting” but not “liking” for sweet<br />
rewards. Journal of Neuroscience 2003;23:9395-9402. [PubMed: 14561867J<br />
63. Reyna VF, Far<strong>le</strong>y F. Risk and rationality in ado<strong>le</strong>scent decision making: Implications for theory, practice, and public policy. Psychological<br />
Science in the Public Interest 2006;7: 1-44.<br />
64. Rosenberg DR, Lewis DA. Postnatal maturation of the dopaminergic iunervation of monkey prefrontal and motor cortices: A tyrosine<br />
hydroxylase immunohistochemical analysis. The Journal of Comparative Neurology 1995;358:383-400. [PubMed: 7560293J<br />
65. Rubia K, Overmeyer S, Taylor E, Brammer M, Williams SC, Simmons A, et al. Functional frontalisation with age: Mapping neurodevelopmental<br />
trajectories with fMRI. Neuroscience and Biobehavioral Reviews 2000;24:13-19. [PubMed: 10654655J